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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sustained left ventricular pressure development during each infusion of a cold calcium-containing hyperkalemic cardioplegic solution has been observed in rat hearts. The present study was undertaken to relate such contraction (i.e., increase in resting pressure) to myocardial preservation and to the calcium and magnesium contents of a crystalloid hyperkalemic cardioplegic solution. Isolated perfused rat hearts with a left ventricular isovolumic balloon were arrested at 8 degrees C by the fully oxygenated cardioplegic solution infused every 15 minutes for 2 hours. Cardioplegic solutions containing ionized calcium in concentrations of 0, 0.1, or 1.2 mmol/L were each studied with (groups 2, 4, and 6) and without (groups 1, 3, and 5) the addition of magnesium (16 mmol/L). Hearts arrested by the cardioplegic solution with no calcium or magnesium (group 1) developed a pressure (averaged over the second to eighth infusion and expressed as percent prearrest left ventricular pressure) of 6.0% +/- 0.4% during cardioplegic infusions. This solution maintained end-arrest myocardial adenosine triphosphate (13.1 +/- 1.0 nmol/mg dry weight) and phosphocreatine (21.7 +/- 2.8 nmol/mg dry weight) contents near the prearrest contents and preserved left ventricular function at 95% +/- 3% of prearrest developed left ventricular pressure at 15 minutes of reperfusion at 37 degrees C. Calcium (groups 3 and 5) increased pressure development during cardioplegic infusions (10.4% +/- 0.5% and 15.1% +/- 0.9%), depleted adenosine triphosphate (7.2 +/- 1.0 and 7.4 +/- 0.9) and phosphocreatine (13.3 +/- 1.8 and 10.7 +/- 1.5), and depressed left ventricular functional recovery (71% +/- 1% and 73% +/- 3%). Magnesium alone (group 2) decreased pressure development during cardioplegic infusions (3.0% +/- 0.3%), maintained adenosine triphosphate (15.6 +/- 0.9), augmented phosphocreatine (38.3 +/- 1.2), and preserved left ventricular function (99% +/- 4%). Magnesium added to calcium (groups 4 and 6) prevented the calcium-induced increased pressure development during cardioplegic infusions (4.0% +/- 0.5% and 6.7% +/- 0.6%), maintained adenosine triphosphate (13.6 +/- 1.4 and 14.9 +/- 0.7), augmented phosphocreatine (31.3 +/- 1.6 and 32.2 +/- 2.4), and ameliorated the depression of functional recovery (82% +/- 2% and 86% +/- 2%). These data suggest that left ventricular pressure development during arrest contributed to calcium-induced energy depletion and impairment of functional recovery and that these deleterious effects were inhibited by magnesium. The inhibitory effects of magnesium on left ventricular pressure development were rapidly reversed on reperfusion. The data support the addition
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PMID:The effects of calcium and magnesium in hyperkalemic cardioplegic solutions on myocardial preservation. 275 59

The isolated perfused working heart was used to study hypertensive diabetes-induced alterations in cardiac function at 6 and 12 wk after diabetes was induced. At 6 wk after diabetes induction, cardiac performance was depressed in the diabetic animals. However, there was no difference in cardiac function between normotensive Wistar and spontaneously hypertensive (SHR) diabetic rats. Wistar-Kyoto (WKY) rats were also included as normotensive controls in our 12-wk study. Hearts from 12-wk SHR and Wistar diabetic animals exhibited a depressed left ventricular developed pressure and positive and negative dP/dt when compared with control animals. However, this depression was not seen in the WKY diabetic animals. In addition, quantitation of various parameters of heart function revealed highly significant differences between SHR diabetic animals and all other groups associated with an increased mortality. Serum lipids were elevated in SHR and Wistar and were unaffected in WKY diabetic rats. Furthermore, thyroid hormone levels were not depressed in WKY diabetic rats as seen in the other two diabetic groups. This normal lipid metabolism and thyroid status could, in part, explain the lack of cardiac dysfunction in these animals. The data provide further evidence that the combination of hypertension and diabetes mellitus produces greater myocardial dysfunction than with either disease alone and is associated with a significant mortality.
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PMID:Cardiac function in spontaneously hypertensive diabetic rats. 294 94

In a previous study, we demonstrated a significant release of adenosine, inosine and hypoxanthine during hypoxia and subsequent reoxygenation. The present study was designed to determine whether or not exogenous adenosine, inosine and hypoxanthine are beneficial for the recovery of hypoxia-induced loss of cardiac contractile force. Hearts were perfused for 20 min under hypoxic conditions, followed by 45 min-perfusion under reoxygenated conditions, and changes in contractile force, resting tension and metabolic parameters of the perfused heart were examined. When either adenosine, inosine or hypoxanthine were exogenously infused during hypoxia at the rate of 3 mumol/min, remarkable recovery (61 to 68%) of cardiac contractile force was observed upon reoxygenation. The recovery was accompanied by a significant restoration of myocardial ATP (90 to 100%) and CP contents (80 to 86%), suggesting that exogenous metabolites are utilized for the restoration of myocardial ATP during reoxygenation, which may lead to a beneficial recovery of hypoxia-induced loss of cardiac contractile force upon reoxygenation. Infusion of exogenous metabolites also resulted in an almost complete inhibition of hypoxia- and reoxygenation-induced release of creatine phosphokinase from the perfused heart as well as a significant depression of hypoxia-induced calcium accumulation in the cardiac tissue. Since these phenomena are considered to represent increases in cell membrane permeability, protection of the myocardium against hypoxia- and reoxygenation-induced changes in cell membrane permeability may be an alternative mechanism for the beneficial effect of adenosine, inosine and hypoxanthine on the hypoxic myocardium.
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PMID:Adenine nucleotide metabolites are beneficial for recovery of cardiac contractile force after hypoxia. 339 53

Addition of diltiazem (0.0, 0.95, 2.5 or 7.5 microM) to isolated working rat hearts before and during ischemia, produced a concentration-dependent increase in recovery of contractile function. Recovery of post-ischemic pressure-rate product showed a strong relationship with depression of pre-ischemic pressure-rate product, primarily from decreased heart rate before ischemia and increased pressure development following reperfusion. Increased recovery in treated hearts was associated with higher ATP and adenine nucleotide levels (ADN), but no relationship was observed between energy levels and degree of recovery of function or concentration of diltiazem. Hearts made ischemic for 20 min without reperfusion had increased ATP and decreased lactic acid accumulation when treated with 7.5 microM diltiazem. The results indicate contractile-dependent mechanisms of action of diltiazem in global ischemic hearts which can only be partly explained by preservation of ATP and ADN, but also are associated with reduced lactic acid accumulation.
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PMID:Effects of diltiazem upon globally ischemic rat hearts. 362 15

To assess whether myocardial lipid metabolism is altered in the "stunned" myocardium we have studied the metabolism of (1-14C)-palmitate during reperfusion in a modified rat heart preparation. Hearts were perfused retrogradely at a physiological flow rate (2 ml/min) in a non-recirculating system with erythrocyte-enhanced Krebs-Henseleit buffer containing albumin 0.4 mM, glucose 11 mM, palmitate 0.4 mM and trace amounts of (1-14C)-palmitate. Left ventricular pressure was measured by a latex balloon in the left ventricular cavity. Control hearts were perfused at constant flow for 120 min. To achieve reversible ischaemic damage, myocardial perfusion was reduced by 95% for 40 min, followed by reperfusion at the control flow rate for 60 min (reperfusion group). For comparison, irreversible damage was produced by calcium free perfusion (calcium paradox group). In the reperfusion group, the developed pressure was severely depressed 5 min after reperfusion to 23% of the value in the control group (p less than 0.05) but recovered to 84% (NS) at 60 min. In the calcium paradox group, mechanical activity ceased completely without recovery. Myocardial uptake of (1-14C)-palmitate in the reperfusion group was similar to the control experiments for the entire reperfusion period, whereas a marked depression was observed in the calcium paradox group. 14CO2 production was severely depressed at the onset of reperfusion in both the reperfusion and calcium paradox group to 42% (p less than 0.05) and 29% (p less than 0.05) respectively. In contrast to the calcium paradox group, 14CO2 production in the reperfusion group recovered progressively to 70% (NS) of the control value during the 60 min of reperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Free fatty acid metabolism in "stunned" myocardium. 366 5

Experiments were conducted to test the hypothesis that the previously demonstrated depression in ventricular function of rats with hyperdynamic sepsis was a result of depressed high energy phosphate levels or altered myocardial substrate utilization. Rats were inoculated with a pooled fecal homogenate, and 48 hr later their hearts were removed and studied using the Langendorff preparation. The coronaries were perfused with a hydrostatic pressure of 90 mmHg, and hearts were paced at 310-320 beats/min. Substrate oxidation was determined by supplying 14C-labeled glucose, lactate, or palmitate in physiologic concentrations, ie, 5.5, 1, and 0.6 mM, respectively. Hearts were frozen either in situ or after 40-50 min of perfusion for the determination of tissue metabolite levels. Myocardial content of high energy phosphates, total adenine nucleotides, and creatine were similar in septic animals and time-matched controls both in situ and after perfusion. Oxidation of exogenous substrates accounted for the total myocardial O2 consumption in both groups of perfused hearts. Palmitate oxidation was responsible for approximately 50% of the total O2 consumption of the heart, with glucose accounting for approximately 20% and lactate for the remainder. The percentage contribution of the three substrates to oxidative metabolism was similar in hearts from septic and time-matched controls; therefore, myocardial substrate preference was not altered by sustained sepsis. These studies also indicate that ischemia and the concomitant fall in high energy phosphates do not contribute to the myocardial dysfunction of hyperdynamic sepsis.
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PMID:Substrate utilization and high energy phosphate levels of hearts from hyperdynamic septic rats. 369 11

Streptozocin-diabetic rats were treated with a combination of triiodothyronine and carnitine for 6 weeks. These compounds were used as they are known to correct the diabetes-induced depression of cardiac myosin ATPase and sarcoplasmic reticular (SR) calcium uptake, respectively. Myocardial performance, which was assessed using the working heart preparation, revealed a depression of function in untreated diabetics when compared with controls at most left atrial filling pressures. Hearts from diabetic rats treated with the combination exhibited depression at only the higher filling pressures as compared with untreated or treated controls. The results suggest that functional alterations occurring as a result of diabetes cannot be accounted for by the depression of cardiac myosin ATPase and SR calcium uptake alone.
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PMID:Effects of triiodothyronine and carnitine therapy on myocardial dysfunction in diabetic rats. 375 16

The present study was designed to evaluate the influence of acrylamide (ACR) on male and female reproductive function. Male rats received ACR in drinking water (50, 100, or 200 ppm) for up to 10 wk. Copulatory behavior, semen, and (for controls and 100 ppm only) fertility and fetal outcomes were evaluated. Females received ACR (25, 50, 100 ppm) for 2 wk prior to initiation of breeding and then throughout gestation and lactation. Hindlimb splaying was apparent in the 200-ppm males by wk 4; less severe splaying appeared in the 100-ppm group at wk 8. Disruptions in copulatory behavior preceded the appearance of this ataxia. These disruptions in mating performance interfered with ejaculatory processes and subsequent transport of sperm, since semen was found in the uterus of only 1 of the 15 females mated with the 100-ppm males at wk 9. Moreover, only 33% of the females mated (wk 10) to the 100-ppm males were pregnant. Postimplantation loss was also significantly increased in this group. Hindlimb splaying appeared in the females receiving 100 ppm ACR during wk 1-2 of pregnancy. Body weight and fluid intake were also depressed. Dams in the 50-ppm group showed depression in these parameters during the last 2 wk of lactation. ACR did not significantly affect mating performance of the females, pregnancy rates, litter size, or survival. However, ACR did significantly depress pup body weight at birth (100-ppm group) and weight gain during lactation through post-weaning, d 42 (50- and 100-ppm groups). Vaginal patency was delayed in the 100-ppm group only.
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PMID:Reproductive toxicity associated with acrylamide treatment in male and female rats. 395 25

The reviewed studies support the contention that during the high flow or hyperdynamic phase of gram-negative septicemia, cardiac reserve is compromised because of intrinsic myocardial dysfunction. The latter is not referable to coronary hypoperfusion or peripheral pooling or decreased venous return. Although, under resting, nonstressed conditions, indices of myocardial function may appear normal or even elevated, a decreased reserve is evident when additional stress is imposed on the myocardium. Hearts removed from septic rats during the hyperdynamic stage and perfused in vitro (using the isolated perfused working heart preparation) showed a rightward and downward shift in work function curves, indicating a severe depression in cardiac function. Possible mechanisms for the observed dysfunction are discussed. No significant alterations in high energy phosphate production or substrate utilization were observed, indicating that altered myocardial metabolism is not likely to be a significant contributor to the dysfunction. Our results suggest that cardiac dysfunction is partially due to an elevation in the cytosolic calcium concentration which may slow the rate of ventricular relaxation. These studies emphasize that intrinsic cardiac function is depressed early during the course of the septic episode at a time that precedes the onset of circulatory shock.
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PMID:The effect of hyperdynamic sepsis on myocardial performance. 399 94

The efficacy of moderate hypothermia with rewarming in attenuating the myocardial and circulatory consequences of acute coronary ligation was studied in open-chest, anesthetized dogs. Thirty minutes after ligation of the proximal left anterior descending coronary artery, 14 dogs were surface-cooled to 27 degrees C, maintained at this temperature for 2 hr, rewarmed to normothermic levels, and monitored for an additional hour. Fifteen dogs were maintained for a corresponding time period after coronary ligation at normothermic levels. Dogs maintained normothermic demonstrated significant depression (from preligation values) of dP/dt, cardiac output (CO), stroke volume (SV), and left ventricular stroke work and power (LVSW, LVSP) at elevated levels of left ventricular end-diastolic pressure (LVEDP). Dogs subjected to the hypothermic procedure demonstrated decreased inotropic status during hypothermia, but with rewarming, exhibited significantly greater values of left ventricular pressure, dP/dt, CO, SV, LVSW, and LVSP at lower values of LVEDP than observed in dogs maintained normothermic. Increased dysrhythmic activity was not observed during hypothermia. Hearts from dogs subjected to the hypothermic protocol demonstrated qualitatively greater dehydrogenase activity both at the periphery and in the center of the nonperfused region. The results suggest that moderate hypothermia during evolving myocardial infarction may preserve left ventricular cardio- and hemodynamics and thus may be useful in delaying morphological and functional deterioration until definitive treatment can be instituted.
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PMID:Salutary effects of moderate hypothermia on the circulatory and myocardial consequences of acute coronary occlusion in dogs. 407 11


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